The Evolution and Functional Diversification of the Deubiquitinating Enzyme Superfamily

Vlasschaert, Caitlyn; Cook, David P.; Xia, Xuhua; Gray, Douglas A.

doi:10.1093/gbe/evx020

Cited by 32 publications

(25 citation statements)

References 96 publications

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“…1E and G, Table S3). We and others found that USP15 (Baker et al, 1999) is expressed in the early progenitor compartment (LSK) and in HSC (Cabezas-Wallscheid et al, 2014;Lancini et al, 2016), as well as in blood and in splenic B cells (Lancini et al, 2016;Vlasschaert et al, 2017). Together with our screen results, these data suggest a potential role for USP15 in hematopoiesis, though no functional study in vivo has yet been reported.…”

Section: In Vivo Rnai Screens For Deubiquitinating Enzymes (Dubs) Idesupporting

confidence: 79%

USP15 deubiquitinase safeguards hematopoiesis and genome integrity in hematopoietic stem cells and leukemia cells

Berk

Lancini

Serresi

et al. 2020

Preprint

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Altering ubiquitination by disruption of individual deubiquitinating enzymes (DUBs) has proven to affect hematopoietic stem cell (HSC) maintenance. However, comprehensive knowledge of DUB function during hematopoiesis in vivo is lacking. To accomplish this goal, we systematically inactivated DUBs in mouse hematopoietic progenitors using in vivo small hairpin RNAs (shRNAs) screens. We found that multiple DUBs may be individually required for hematopoiesis and that the ubiquitin-specific protease 15 (USP15) is particularly important for the maintenance of murine hematopoietic stem and progenitor cells in vitro and in vivo.Consistently, Usp15 knockout mice exhibited a reduced HSC pool. The defect was intrinsic to HSCs, as demonstrated by competitive repopulation assays. Importantly, USP15 is highly expressed in normal human hematopoietic cells and leukemias, and USP15 depletion in murine early progenitors and myeloid leukemia cells impaired in vitro expansion and increased genotoxic stress. Our study underscores the importance of DUBs in preserving normal hematopoiesis and uncovers USP15 as a critical DUB in safeguarding genome integrity in HSC and in leukemia cells.

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Section: In Vivo Rnai Screens For Deubiquitinating Enzymes (Dubs) Idesupporting

confidence: 79%

USP15 deubiquitinase safeguards hematopoiesis and genome integrity in hematopoietic stem cells and leukemia cells

Berk

Lancini

Serresi

et al. 2020

Preprint

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“…The ancestral vertebrate genome appears to have encoded 61 DUBS, and the expanded repertoire of modern vertebrates is largely the product of two rounds of whole genome duplication (referred to as 2R‐WGD) dating to the Cambrian period roughly 500 million years ago; a smaller number arose from small segmental duplications or retrotransposition events. Most duplicated genes are silenced as the result of negative selection or genetic drift, and their pseudogenization or ultimate loss is consistent with the absence of the even greater abundance of DUBs predicted to have been generated by 2R‐WGD . The remaining duplicates can have a high degree of sequence similarity, particularly those arising from WGD (designated ohnologues in recognition of Susumu Ohno who explained the prevalence and origin of such duplicates).…”

Section: What Are the Origins Of The Deubiquitinating Enzyme Superfammentioning

confidence: 61%

“…The activities of enzymes promoting or opposing the assembly of chains are in many cases regulated by post‐translational modifications of the enzymes (notably by phosphorylation events), allowing the dynamic fine‐tuning of ubiquitin‐mediated processes in response to changes in cellular milieu. The genomes of metazoan organisms encode in the order of 100 DUBs and we have recently provided an evolutionary account of their origins . For the analysis that follows, we chose to concentrate on the state of affairs in vertebrate DUBs—in particular on the ubiquitin‐specific proteases (which comprise the largest family of DUBs in vertebrates).…”

Section: What Are the Origins Of The Deubiquitinating Enzyme Superfammentioning

confidence: 99%

“…Although we have focused our discussion on the ohnologue pair of USP4 and USP15, similar arguments could be made for other USP ohnologue pairs. To cite one further example, USP5 and USP13 also arose from whole genome duplication and have become subfunctionalized through expression in specific layers of tissue such as the retina . Morpholino experiments in zebrafish reveal a profound developmental defect when USP5 is targeted, although the effects of USP5 RNA depletion are more subtle in cultured human cells treated with siRNA …”

Section: Which Can Best Address the Essentiality Of A Gene: Knockdownmentioning

confidence: 99%

“…In the nonsense‐induced transcriptional compensation (NITC) response, the fragments generated by mRNA degradation are directed to the nucleus where they bind to complementary DNA sequences of highly related genes, promoting their epigenetic reprogramming and ultimate transcriptional activation to levels sufficient for rescue. It remains to be seen whether the NITC response is operative in inactivating mutations involving DUBs, but the prevalence of ohnologues in the USP genes in particular makes this subset the logical place to look. As a starting point, we have therefore completed a systematic examination of the literature mentioning inactivating mutations of USP genes in genetically modified strains of mice (summarized in Table , which updates and expands upon a previously published inventory of mutations and their phenotypes).…”

Section: What Use Is An Ohnologue?mentioning

confidence: 99%

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Deubiquitinating Enzymes in Model Systems and Therapy: Redundancy and Compensation Have Implications

Zachariah

Gray

2019

BioEssays

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The multiplicity of deubiquitinating enzymes (DUBs) encoded by vertebrate genomes is partly attributable to whole genome duplication events that occurred early in chordate evolution. By surveying the literature for the largest family of DUBs (the ubiquitin-specific proteases), extensive functional redundancy for duplicated genes has been confirmed as opposed to singletons. Dramatically conflicting results have been reported for loss of function studies conducted through RNA interference as opposed to inactivating mutations, but the contradictory findings can be reconciled by a recently proposed compensatory mechanism involving nonsense-mediated RNA degradation. Duplicated genes are often inactivated to become pseudogenes, and it is proposed that such is the fate of the USP15 gene of zebrafish, a commonly used model system. As it is reviewed here, these observations have implications not only for the interpretation of model system phenotypes but also for therapeutic interventions designed to target DUBs.

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What deubiquitinating enzymes, oncogenes, and tumor suppressors actually do: Are current assumptions supported by patient outcomes?

Gregoire‐Mitha

Gray

2021

BioEssays

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Context can determine whether a given gene acts as an oncogene or a tumor suppressor. Deubiquitinating enzymes (DUBs) regulate the stability of many components of the pathways dictating cell fate so it would be expected that alterations in the levels or activity of these enzymes may have oncogenic or tumor suppressive consequences. In the current review we survey publications reporting that genes encoding DUBs are oncogenes or tumor suppressors. For many DUBs both claims have been made. For such “double agents,” the effects of gain or loss of function will depend on the overall status of a complex of molecular signaling networks subject to extensive crosstalk. As the TGF‐β paradox makes clear context is critical in cell fate decisions, and the disconnect between experimental findings and patient survival outcomes can in part be attributed to disparities between culture conditions and the microenvironment in vivo. Convincing claims for oncogene or tumor suppressor roles require the documentation of gene alterations in patient samples; survival curves are alone inadequate.

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The Evolution and Functional Diversification of the Deubiquitinating Enzyme Superfamily

Cited by 32 publications

References 96 publications

USP15 deubiquitinase safeguards hematopoiesis and genome integrity in hematopoietic stem cells and leukemia cells

USP15 deubiquitinase safeguards hematopoiesis and genome integrity in hematopoietic stem cells and leukemia cells

Deubiquitinating Enzymes in Model Systems and Therapy: Redundancy and Compensation Have Implications

What deubiquitinating enzymes, oncogenes, and tumor suppressors actually do: Are current assumptions supported by patient outcomes?

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